Greenhouse Gas Control Technologies 7. Proceedings of the 7th International Conference on Greenhouse Gas Control Technologies 5– September 2004, Vancouver, Canada

Content: 
Foreword, Pages v-vi, Malcolm Wilson, Ted Morris, John Gale, Kelly Thambimuthu
Editors' remarks, Page vii, E.S. Rubin, D.W. Keith, C.F. Gilboy
Technologies for capture of carbon dioxide, Pages 3-13, John Davison, Kelly Thambimuthu
Overview and current issues in geological storage of carbon dioxide, Pages 15-20, Peter J. Cook, Sally M. Benson
CO2 capture and storage: Costs and market potential, Pages 21-28, Howard J. Herzog
Rapid assessment of novel CO2 capturing power plants, Pages 33-41, M.R. Haines, G.F. Skinner, A.D. Maunder
Selection of new absorbents for carbon dioxide capture, Pages 45-53, Sholeh Ma'mum, Hallvard F. Svendsen, Karl A. Hoff, Olav Juliussen
Evaluation of the CO2 capture performance of the University of Regina CO2 technology development plant and the boundary dam CO2 demonstration plant, Pages 55-61, Malcolm Wilson, Paitoon Tontiwachwuthikul, Amit Chakma, Raphael Idem, Amornvadee Veawab, Adisorn Aroonwilas, Don Gelowitz, Robert Stobbs
Aqueous piperazine/potassium carbonate for enhanced CO2 capture, Pages 63-71, J. Tim Cullinane, Babatunde A. Oyenekan, Jennifer Lu, Gary T. Rochelle
Cardo polyimide membranes for CO2 capture from flue gases, Pages 75-82, Shingo Kazama, Shinichirou Morimoto, Shigetoshi Tanaka, Hiroshi Mano, Tatsuaki Yashima, Koichi Yamada, Kenji Haraya
Development of a hydrogen membrane reformer based CO2 emission free gas fired power plant, Pages 83-91, Knut Aasen, Bent Vigeland, Truls Norby, Yngve Larring, Thor Mejdell
Dense membranes for separation of H from CO2 in high-pressure water-gas shift reactors, Pages 93-101, Michael V. Mundschau, Xiaobing Xie, Anthony F. Sammells
Characterization of oxygen carriers for chemical-looping combustion, Pages 105-113, Juan Adanez, Francisco García-Labiano, Luis F. de Diego, Pilar Gayán, Javier Celaya, Alberto Abad
The grace project: Development of oxygen carrier particles for chemical-looping combustion. Design and operation of a 10 kW chemical-looping combustor, Pages 115-123, A. Lyngfelt, B. Kronberger, J. Adanez, J.-X. Morin, P. Hurst
Hydrogen and power production with integrated carbon dioxide capture by chemical-looping reforming, Pages 125-134, Magnus Rydén, Anders Lyngfelt
Maximising the effectiveness of post combustion CO2 capture systems, Pages 139-146, J.R. Gibbins, R.I. Crane, D. Lambropoulos, C. Booth, C.A. Roberts, M. Lord
Economic study on CO2 capture and sequestration from PCF flue gas, Pages 147-154, Nobuo Imai, Kazuo Ishida
Potential for improvement in power generation with post-combustion capture of CO2, Pages 155-163, C.A. Roberts, J Gibbins, R Panesar, G Kelsall
CO2 capture in coal-based IGCC power plants, Pages 167-175, J. Davison, L. Bressan, R. Domenichini
Technico-economic feasibility study of CO2 capture, transport and geo-sequestration: A case study for France, Pages 177-186, Philippe Jaud, René Gros-Bonnivard, Mohamed Kanniche, Eric Amantini, Taoufik Manai, Chakib Bouallou, Cathy Descamps
Climate change mitigation by biomass gasification combined with CO2 capture and storage, Pages 187-197, H Audus, P Freund
Oxyfuel combustion for coal-fired power generation with CO2 capture—Opportunities and challenges, Pages 201-209, Kristin Jordal, Marie Anheden, Jinying Yan, Lars Strömberg
Oxy-combustion processes for CO2 capture from advanced supercritical PF and NGCC power plant, Pages 211-220, D.J. Dillon, R.S. Panesar, R.A. Wall, R.J. Allam, V White, J Gibbins, M.R. Haines
Oxyfuel conversion of refinery process equipment utilising flue gas recycle for CO2 capture, Pages 221-229, Rodney J Allam, Colin J McDonald, Vince White, VanEric Stein, Mark Simmonds
Benchmarking of gas-turbine cycles with CO2 capture, Pages 233-241, Hanne M. Kvamsdal, Ola Maurstad, Kristin Jordal, Olav Bolland
Assessment of CO2 capture and storage from thermal power plants in Argentina, Pages 243-251, Norma Amadeo, Héctor Bajano, José Comas, Juan P. Daverio, Miguel A. Laborde, Juan A. Poggi, Darío R. Gómez
Development of a process for CO2 capture from gas turbines using a sorption enhanced water gas shift reactor system, Pages 253-261, Jeffrey R. Hufton, Rodney J. Allam, Robert Chiang, Peter Middleton, Edward L. Weist, Vince White
Azep gas turbine combined cycle power plants - Thermal optimisation and LCA analysis, Pages 263-271, Sven Gunnar Sundkvist, ke Klang, Mats Sjödin, Kjersti Wilhelmsen, Knut sen, Alberto Tintinelli, Sharon McCahey, Huang Ye
SOFC and gas turbine power systems—Evaluation of configurations for CO2 capture, Pages 273-281, Ola Maurstad, Rune Bredesen, Olav Bolland, Hanne M. Kvamsdal, Morten Schell
Comparative assessments of fossil fuel power plants with CO2 capture and storage, Pages 285-293, Edward S. Rubin, Anand B. Rao, Chao Chen
Co-capture and storage of CO2 with other impurities from coal and heavy fuel-fired power plant flue gases, Pages 295-301, Mike Haines, John Leslie, Doug Macdonald
Baseload and peaking economics and the resulting adoption of a carbon dioxide capture-and-storage system for electric power plants, Pages 303-311, M.A. Wise, J.J. Dooley
Carbon dioxide pipelines: A preliminary review of design and risks, Pages 315-320, J. Barrie, K. Brown, P.R. Hatcher, H.U. Schellhase
Creating a large-scale CO2 infrastructure for enhanced oil recovery, Pages 321-328, Björn Berger, Olav Kaarstad, Hans Aksel Haugen
Catalytic combustion for reduction of fugitive methane emissions from natural gas compressor stations, Pages 329-336, R. Litto, R.E. Hayes, B. Liu
Reduction of CO2 emissions by addition of hydrogen to natural gas, Pages 337-345, M.R. Haines, E.A. Polman, J.C. de Laat
Basin strategies for linking CO2 enhanced oil recovery and storage of CO2 emissions, Pages 351-359, David J. Beecy, Vello A. Kuuskraa
CO2 storage in oil and gas reservoirs in western Canada: Effect of aquifers, potential for CO2-flood enhanced oil recovery and practical capacity, Pages 361-369, Stefan Bachu, Jerry C. Shaw
CO2 storage during EOR process in the Weyburn Oil Pool: Modelling and monitoring results, Pages 371-379, Shubao Tian, Gang Zhao, Koorosh Asghari
Optimization of carbon dioxide sequestration and improved oil recovery in oil reservoirs, Pages 381-389, Koorosh Asghari, Adal Al-Dliwe
A large-scale infrastructure model for CO2 disposal and EOR—economic and capacity potential in the North Sea, Pages 391-399, Torleif Holt, Erik Lindeberg, Frode Vassenden, Dag Wessel-Berg
Numerical simulations for designing Oil/CO2 gravity-drainage laboratory experiments of a naturally fractured reservoir, Pages 401-409, Gholam Reza Darvish, Erik Lindeberg, Jon Kleppe, Ole Tors˦ter
CO2 storage and enhanced methane production: Field testing at Fenn-Big Valley, Alberta, Canada, with application, Pages 413-421, William D. Gunter, Mathew J. Mavor, John R. Robinson
Prospect of CO2 sequestration in the Ishikari Coal Field, Japan, Pages 423-430, S. Yamaguchi, K. Ohga, M. Fujioka, S. Muto
A numerical simulation study of the Allison Unit CO2-ECBM pilot: The impact of matrix shrinkage and swelling on ECBM production and CO2 injectivity, Pages 431-439, Ji-Quan Shi, Sevket Durucan
Overview of acid-gas injection operations in Western Canada, Pages 443-448, Stefan Bachu, William D. Gunter
In-situphase and thermodynamic properties of resident brine and acid gases (CO2 and H2S) injected into geological formations in western Canada, Pages 449-457, Stefan Bachu, John J. Carroll
Mineralogy and geochemical trapping of acid gas in the Edmonton area of central Alberta, Canada, Pages 459-467, B.E. (Maja) Buschkuehle, E.H. Perkins
Acid gas injection in the Brazeau Nisku Q carbonate reservoir: Geochemical reactions as a result of the injection of an H2S-CO2 waste stream, Pages 469-477, W.D. Gunter, Allen Pratt, Beate E. Buschkuehle, E.H. Perkins
Evaluation of the spread of acid-gas plumes injected in deep saline aquifers in western Canada as an analogue for CO2 injection into continental sedimentary basins, Pages 479-487, Stefan Bachu, Jan M. Nordbotten, Michael A. Celia
Economic and emission accounting for acid-gas injection projects—An example from Keyspan Brazeau River, Alberta, Canada, Pages 489-497, Rod Sikora, Sam Wong, William D. Gunter, Edward Wichert, Matt McCulloch
Heterogeneous saline formations: Long-term benefits for geo-sequestration of greenhouse gases, Pages 501-509, M.A. Flett, R.M. Gurton, I.J. Taggart
Determining carbon sequestration injection potential at a site-specific location within the Ohio River Valley region, Pages 511-519, Neeraj Gupta, Phillip Jagucki, Joel Sminchak, Danielle Meggyesy, Frank Spane, T.S. Ramakrishnan, Austin Boyd
Re-injecting CO2 into an offshore gas reservoir at a depth of nearly 4000 metres sub-sea, Pages 521-529, L.G.H. van der Meer, J. Hartman, C. Geel, E. Kreft
CO2 underground storage costs as experienced at Sleipner and Weyburn, Pages 531-538, Tore A. Torp, Ken R. Brown
Storage retention time of CO2 in sedimentary basing; Examples from petroleum systems, Pages 541-549, John Bradshaw, Chris Boreham, Frank La Pedalina
Potential hazards of CO2 leakage in storage systems—Learning from natural systems, Pages 551-560, S.E. Beaubien, S. Lombardi, G. Ciotoli, A. Annuziatellis, G. Hatziyannis, A. Metaxas, J.M. Pearce
Comparison of long-term geochemical interactions at two natural CO2-analogues: Montmiral (Southeast Basin, France) and Messokampos (Florina Basin, Greece) case studies, Pages 561-569, Irina Gaus, Cécile Le Guern, Jonathan Pearce, Hélène Pauwels, Tom Shepherd, George Hatziynnis, Antonis Metaxas
A first-order global geological CO2-storage potential supply curve and its application in a global integrated assessment model, Pages 573-581, J.J. Dooley, S.H. Kim, J.A. Edmonds, S.J. Friedman, M.A. Wise
Mapping geological storage prospectivity of CO2 for the world's sedimentary basins and regional source to sink matching, Pages 583-591, John Bradshaw, Tess Dance
A CO2-storage supply curve for North America and its implications for the deployment of carbon dioxide capture and storage systems, Pages 593-601, J.J. Dooley, R.T. Dahowski, C.L. Davidson, S. Bachu, N. Gupta, J. Gale
Cost curves for CO2 storage: European sector, Pages 603-610, Ton Wildenborg, John Gale, Chris Hendriks, Sam Holloway, Ruut Brandsma, Eric Kreft, Ad Lokhorst
Options for sequestration of CO2 from major stationary point sources, British Columbia, Canada, Pages 611-619, Danae A. Voormeij, George J. Simandl
Geological storage of CO2: Time frames, monitoring and verification, Pages 623-631, Rick Chalaturnyk, William D. Gunter
Pre-stack estimation of time-lapse seismic velocity changes — An example from the Sleipner CO2-Sequestration Project, Pages 633-641, Amir Ghaderi, Martin Landrø
Predicting, monitoring and controlling geomechanical effects of CO2 injection, Pages 643-651, Jürgen E. Streit, Anthony F. Siggins
Recent time-lapse seismic data show no indication of leakage at the sleipner CO2-injection site, Pages 653-660, Rob Arts, Andy Chadwick, Ola Eiken
Quantitative estimation of CO2 leakage from geological storage: Analytical models, numerical models, and data needs, Pages 663-671, Michael A. Celia, Stefan Bachu, Jan Martin Nordbotten, Sarah E. Gasda, Helge K. Dahle
Conducting comprehensive analyses of potential sites for geological CO2 storage, Pages 673-681, C.M. Gibson-Poole, R.S. Root, S.C. Lang, J.E. Streit, A.L. Hennig, C.J. Otto, J. Underschultz
Assessing reservoir performance risk in CO2 storage projects, Pages 683-691, A.R. Bowden, A. Rigg
Geological storage of CO2: A statistical approach to assessing performance and risk, Pages 693-700, Frank B. Walton, John C. Tait, Dennis LeNeveu, Marsha I. Sheppard
Development of a FEP database for the geological storage of carbon dioxide, Pages 701-709, Philip Maul, David Savage, Steven Benbow, Russell Walke, Richard Bruin
Long-term numerical simulation of a portfolio of possible sites for geological storage of carbon dioxide in Australia, Pages 711-719, Jonathan Ennis-King, John Bradshaw, Catherine Gibson-Poole, Allison Hennig, Simon Lang, Lincoln Paterson, Robert Root, Jacques Sayers, Lynton Spencer, Jürgen Streit, Jim Undershultz
The IEA Weyburn CO2 monitoring and storage project — Modeling of the long-term migration of CO2 from Weyburn, Pages 721-729, W. Zhou, M.J. Stenhouse, R. Arthur, S. Whittaker, D.H.-S. Law, R. Chalaturnyk, W. Jazrawi
Methodology for assessing integrity of bounding seals (wells and caprock) for geological storage of CO2, Pages 731-739, Francisco J. Moreno, Rick Chalaturnyk, Jaime Jimenez
Regional hydrogeological investigation around the IEA Weyburn CO2 monitoring and storage project site, Pages 741-750, D.K. Khan, B.J. Rostron
The importance of regional geological mapping in CO2 storage site characterization: Examples from the IEA Weyburn CO2 monitoring and storage project, Pages 751-759, F.M. Haidl, S.G. Whittaker, M. Yurkowski, L.K. Kreis, C.F. Gilboy, R.B. Burke
Characterisation of the lower watrous aquitard as a major seal for CO2 geological sequestration, (Weyburn Unit, Canada), Pages 761-769, Yves-Michel Le Nindre, Irina Gaus
Evaluation of benefits of CO2 ocean sequestration, Pages 773-781, Koji Tokimatsu, Masao Sorai, Yoichi Kaya, Michimasa Magi, Shigeo Murai, Takashi Ohsumi
Biological impact assessment of direct CO2 injection into the ocean, Pages 783-789, Jun Kita, Takashi Ohsumi
Evaluating the effectiveness of artificial marine structures as upwelling-generators to enhance oceanic CO2 sinks, Pages 791-799, Michimasa Magi, Beatriz E. Casareto, Tatsuo Suzuki, Yoichi Honda, Yoshimi Suzuki, Mohan P. Niraula
Ocean abyssal carbon experiments at 0.7 and 4 KM depth, Pages 801-808, Peter M. Haugan, Peter G. Brewer, Edward T. Peltzer III, Peter Walz, Izuo Aya, Kenji Yamane, Ryuji Kojima, Yasuharu Nakajima, Noriko Nakayama, Joakim Hove, Truls Johannessen, Richard G.J. Bellerby, Guttorm Alendal
CO2 release in deep ocean by moving ship, Pages 809-817, Junichi Minamiura, Hideyuki Suzuki, Baixin Chen, Masahiro Nishio, Masahiko Ozaki
A lagrangian method combined with high-resolution ocean general circulation model to evaluate CO2 ocean sequestration, Pages 819-827, Yoshio Masuda, Yasuhiro Yamanaka, Taketo Hashioka, Michimasa Magi, Shigeo Murai, Takashi Ohsumi
Impact of the eu emissions trading directive on the energy and steel industries in Finland, Pages 833-840, Tiina Koljonen, Ilkka Savolainen
Cost-effectivess of subsidization to photovoltaics in Japan from the viewpoint of carbon dioxide emission reduction, Pages 841-849, Eiichi Endo, Masayuki Ichinohe
Region-specific marginal abatement costs for methane from coal, natural gas, and landfills through 2030, Pages 851-859, Michael Gallaher, Casey Delhotal, Jeffrey Petrusa
A quantitative evaluation of fluorocarbon emissions and a study of multilateral environmental policies, Pages 861-869, Tatsuya Hanaoka, Ryuji Matsuhashi, Yoshikuni Yoshida
The future role of CO2 capture in the electricity sector, Pages 873-880, Dolf Gielen, Jacek Podkanski
Simulating future paths of the European power generation—applying the chalmers power plant database to the British and German power generation system, Pages 881-890, Jan Kjärstad, Filip Johnsson
Accelerated adoption of carbon dioxide capture and storage Within the United States electric utility industry: The impact of stabilizing at 450 PPMV and 550 PPMV, Pages 891-899, J.J. Dooley, C.L. Davidson, M.A. Wise, R.T. Dahowski
The role of carbon dioxide capture and storage in reducing emissions from cement plants in North America, Pages 901-909, N. Mahasenan, R.T. Dahowski, C.L. Davidson
Role of CO2 sequestration by country for global warming mitigation after 2013, Pages 911-920, Keigo Akimoto, Takashi Homma, Takanobu Kosugi, Xiaochun Li, Toshimasa Tomoda, Yasumasa Fujii
Towards fossil-based electricity systems with integrated CO2 capture: Implications of an illustrative long-term technology policy, Pages 921-929, Keywan Riahi, Leonardo Barreto, Shilpa Rao, Edward S. Rubin
Uncertainty of the role of carbon capture and sequestration within climate change mitigation strategies, Pages 931-939, Nico Bauer, Ottmar Edenhofer, Hermann Held, Elmar Kriegler
Investigation of how capture and storage could evolve as a large scale CO2 mitigation option, Pages 943-951, Bill Senior, Justin Adams, Tony Espie, Iain Wright
Important accounting issues for carbon dioxide capture and storage projects under the UNFCCC, Pages 953-960, Susanne Haefeli, Martina Bosi, Cedric Philibert
Regulatory issues associated with deep (geological) CO2 storage, Pages 961-969, M.J. Stenhouse, M. Wilson, H. Herzog, B. Cassidy, M. Kozak, W. Zhou, J. Gale
International and European legal aspects on underground geological storage of CO2, Pages 971-978, Caroline Wall, Christian Bernstone, Marie-Louise Olvstam
Considerations for a regulatory framework for large-scale geological sequestration of carbon dioxide: A North American perspective, Pages 979-987, Elizabeth J. Wilson, David W. Keith, Malcolm Wilson
A regulatory framework for carbon capturing and sequestration within the post-kyoto process, Pages 989-997, Ottmar Edenhofer, Hermann Held, Nico Bauer
How aware is the public of carbon capture and storage?, Pages 1001-1009, Tom Curry, David M. Reiner, Stephen Ansolabehere, Howard J. Herzog
Public acceptance of CO2 capture and storage technology: A survey of public opinion to explore influential factors, Pages 1011-1019, Kenshi Itaoka, Aya Saito, Makoto Akai
Geological trapping of acid gas injected underground in Western Canada, Pages 1023-1028, Beate E. (Maja) Buschkuehle
Hydrodynamic trapping of injected acid gas in the Alberta Basin, Western Canada, Pages 1029-1034, Karsten Michael, Kristine Haug
Enitecnologie R&D project on microalgae biofixation of CO2: Outdoor comparative tests of biomass productivity using flue gas CO2 from a NGCC power plant, Pages 1037-1042, Paola Maria Pedroni, Gioia Lamenti, Giulio Prosperi, Luciano Ritorto, Giuseppe Scolla, Federico Capuano, Mario Valdiserri
Combined production of hydrogen, clean power and quality fuels, Pages 1045-1050, Alenxandre Rojey, Ari Minkkinen, Etienne Lebas
Transportation fuel from coal with low CO2 emissions, Pages 1053-1058, Fuat Celik, Eric D. Larson, Robert H. Williams
Hydrogen costs with CO2 capture, Pages 1059-1066, Mr. D.R. Simbeck
Squaring the circle: Sequestration of CO2 as liquid fuel, Pages 1067-1071, Dimitri Mignard, Colin Pritchard
Siemens power generation: Driving force for CO2-free power stations, Pages 1073-1078, Guenther Haupt, Franz Stuhlmueller
Catalytically stabilized combustion of CH4 in zero emission processes, Pages 1081-1085, Markus Wolf, Timothy Griffin, Richard Carroni, Dieter Winkler, Christoph Appel, John Mantzaras
Membrane reactors: Key technology for production of De-Carbonised energy carriers, Pages 1087-1092, Daniel Jansen, Paul P.A.C. Pex, Jan Wilco Dijkstra, Steven C.A. Kluiters
Hydrogen membrane development for a water gas shift reactor, Pages 1093-1098, Cliff Lowe, Jan Schelling, Peter Middleton
The role of solids in CO2 capture: A mini review, Pages 1101-1106, Douglas P. Harrison
Capture of CO2 with CaO in a pilot fluidized bed carbonator experimental results and reactor model, Pages 1107-1113, Carlos Salvador, Dennis Y. Lu, Edward J. Anthony, J. Carlos Abanades
A comparative study of refinery fuel gas oxy-fuel combustion options for CO2 capture using simulated process data, Pages 1117-1123, Kourosh E. Zanganeh, Ahmed Shafeen, Kelly Thambimuthu
Oxyfuel technologies for CO2 capture: A techno-economic overview, Pages 1125-1130, Mark Simmonds, Ivano Miracca, Karl Gerdes
Cost efficient amine plant design for post combustion CO2 capture from power plant flue gas, Pages 1133-1138, Daniel Chinn, Gerald N. Choi, Robert Chu, Bruce Degen
Improvements of carbon dioxide capture technology from flue gas, Pages 1139-1145, Yasuyuki Yagi, Tomio Mimura, Masaki Iijima, Kazuo Ishida, Ryuji Yoshiyama, Takashi Kamijo, Takahito Yonekawa
High pressure gas sweetening with amines for reducing CO2 emissions, Pages 1147-1152, Gelein de Koeijer, Even Solbraa
New solvents based on amino-acid salts for CO2 capture from flue gases, Pages 1153-1158, Paul H.M. Feron, Nick ten Asbroek
Pathways and reaction products for the oxidative degradation of CO2 loaded and concentrated aqueous MEA and MEA/MDEA mixtures during CO2 absorption from flue gases, Pages 1159-1164, Olanike Lawal, Adeola Bello, Raphael Idem
Micro-cell technology: A novel CO2 capture and separation process, Pages 1167-1172, Robert Amin, Alan Jackson, Tony Kennaird
CO2 sequestration from solid oxide fuel cells: Technical options and costs, Pages 1173-1178, Ahmet Lokurlu, Knut Bakke, Ludger Blum, Wolfgang Heidug, Kuei-Jung Li, Ernst Riensche
Post combustion technologies for CO2 capture: A technoeconomic overview of selected options, Pages 1181-1186, Mark Simmond, Paul Hurst
Canadian Clean Power Coalition: The evaluation of options for CO2 capture from existing & new coal-fired power plants, Pages 1187-1192, Robert Stobbs, Paul Clark
Techno-economic evaluation of IGCC power plants with CO2 capture, Pages 1193-1198, Guillermo Ordorica-Garcia, Peter Douglas, Eric Croiset, Ligang Zheng
An integral comparison of hydrogen and electricity production systems with CO2 capture and storage by means of a chain analysis, Pages 1199-1204, Kay Damen, Martijn van Troost, André Faaij, Wim Turkenburg
CO2 capture for PC-boilers using oxy-fuels—A transition strategy, Pages 1205-1210, Richard D. Doctor, John C. Molburg, Marshall H. Mendelsonh, Norman F. Brockmeier
Performance and economic evaluation of CO2 capture and sequestration technologies, Pages 1213-1219, Makoto Aka, Masahiro Nishio, Masaki Iijima, Masahiko Ozaki, Junichi Minamiura, Toshihide Tanaka
Techno-economic assessment of geological CO2 sequestration in Ontario, Pages 1221-1227, A. Shafeen, E. Croiset, P.L. Douglas, J. Chatzis, Blair Seckington
Characteristics of an immiscible flow of supercritical CO2 and water in porous media under sequestration conditions, Pages 1231-1236, Tetsuya Suekane, Toshihiro Ishii, Shohji Tsushima, Shuichiro Hirai
Using eddy covariance to detect leaks from CO2 sequestered in deep aquifers, Pages 1239-1245, Natasha L. Miles, Kenneth J. Davis, John C. Wyngaard
Leakage and seepage in the near-surface environment: An integrated approach to monitoring and detection, Pages 1247-1252, Curtis M. Oldenburg, Jennifer L. Lewicki
Monitoring of the carbon dioxide sequestration by time-lapse 3D seismic survey in Japan, Pages 1253-1258, Akio Sakai
Monitoring protocols and life-cycle costs for geologic storage of carbon dioxide, Pages 1259-1264, Sally M. Benson, Mike Hoversten, Erika Gasperikova, Michael Haines
The economics of CO2 and mixed gas geosequestration from stationary greenhouse gas emitters, Pages 1267-1273, Greg Leamon, Guy Allinson, Dianne E. Wiley
Understanding risk for the long term storage of co2 in geologic formations, Pages 1277-1282, Tony Espie
Long-term safety assessment of CO2 storage: The scenario approach, Pages 1283-1287, Ton Wildenborg, Toon Leijnse, Eric Kreft, Manuel Nepveu & Arie Obdam
Developing a framework for managing the long term storage of CO2 in geological formations, Pages 1289-1294, Bill Senior, Tony Espie, Charles Christopher
Assessing the risks of geological storage of CO2 in mature oil fields, Pages 1295-1300, Yann Le Gallo, J. Marcelo Ketzer, Bernard Carpentier
A risk analysis scheme of the CO2 leakage from geologic sequestration, Pages 1301-1307, Koji Yammaoto, Osamu Kitamura, Kenshi Itaoka, Makoto Akai
Estimating rates of potential co2 loss from geological storage sites for risk and uncertainty analysis, Pages 1309-1314, Jurgen E. Streit, Maxwell N. Watson
Modeling the long-term isolation performance of natural and engineered geologic CO2 storage sites, Pages 1315-1321, James W. Johnson, John J. Nitao, Joseph P. Morris
Towards a methodology for top seal efficacy assessment for underground CO2 storage, Pages 1323-1328, Peter Zweigel, Erik Lindeberg, Arild Moen, Dag Wessel-Berg
Detection and options for remediation of leakage from underground CO2 storage projects, Pages 1329-1335, Sally Benson, Robert Hepple
Geological considerations for CO2 sequestration in a cratonic basin: An assessment of options in the Illinois Basin, USA, Pages 1339-1344, Robert J. Finley, Steven R. Gustison, Hannes E. Leetaru
CO2 separation, capture, and transport issues for the west coast regional carbon sequestration partnership, Pages 1345-1350, John Ruby
Monitoring geological storage the In Salah Gas CO2 storage project, Pages 1353-1359, Fred Riddiford, Iain Wright, Clive Bishop, Tony Espie, A. Tourqui
Testing efficiency of storage in the subsurface: Frio brine pilot experiment, Pages 1361-1366, Susan D. Hovorka, Christine Doughty, Mark H. Holtz
Field test of CO2 injection in Nagaoka, Japan, Pages 1367-1372, Katsuhiko Kikuta, Seiji Hongo, Daiji Tanase, Takashi Ohsumi
Isotopic analysis of natural CO2 fields: How long has nature stored CO2 underground?, Pages 1375-1379, Scott H. Stevens, Martin Schoell, Chris Ballentine, David M. Hyman
Natural gas reservoirs with high CO2 concentrations as natural analogs for CO2 storage, Pages 1381-1387, Sean T. Brennan, Hughes V. Adrian, Freidmann S. Julio, Burruss Robert C.
Field experiment of ECBM-CO2 in the Upper Silesian Basin of Poland (RECOPOL), Pages 1391-1397, Henk Pagnier, Frank van Bergen, Pawel Krzystolik, Jacek Skiba, Bartlomiej Jura, Jerzy Hadro, Paul Wentink, Guillaume De-Smedt, Hans-Jürgen Kretzschmar, Jörg Fröbel, Gert Müller-Syring, Bernd Krooss, Andreas Busch, Karl-Heinz Wolf, Saikat Mazumder, Dan Bossie-Codreanu, Xavier Choi, David Grabowski, Daniel Hurtevent, John Gale,  et al.
The Coal-Seq project: Key results from field, laboratory, and modeling studies, Pages 1399-1403, Scott R. Reeves
Greenhouse gas management: Project planning and operations optimization, Pages 1407-1412, Arthur Lee, Susann Nordrum, John Cain
Greenhouse gas reduction options for Australian coal-fired power plants—An integrated approach, Pages 1413-1419, Lila Gurba, Frank van Schagen
Greenhous gas emissions reduction by motor systems—The case of compressed air systems in power generation and industry, Pages 1421-1426, Peter Radgen
An optimal fleet-wide CO2 emission strategy for Ontario, Pages 1427-1432, Haslenda Hashim, Peter Douglas, Ali Elkamel, Eric Croiset
Development of a new treatment process of waste concrete for CO2 reduction in cement industry, Pages 1433-1439, Yasuro Katsuyama, Atsushi Iizuka, Akihiro Yamasaki, Minoru Fujii, Kazukiyo Kumagai, Yukio Yanagisawa
- The role of inert anode in the aluminum industry and its impact on greenhouse gas (GHGS) emission and other pollutants, Page 1441, Jean-Luc Allard
Analysis of the techniques for the utilisation of coal bed methane from Polish coal mines, Pages 1443-1448, Krzysztof Warmuzinski, Marek Tanczyk, Manfred Jaschik
Economical analysis of methane utilization options on coal mines, Pages 1449-1455, Oleg Tailakov, Dmitry Islamov, Vitaly Tailakov, Denis Zastrelov
- Developing GHG management plans for the industry sector to address climate change requirements under the Kyoto protocol: Case studies in a pulp and paper mill and a coal plant in Slovenia, Page